Water conservation and assimilation is driven by stomatal behaviour in industrial hemp (Cannabis sativa L.)
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Date
2025
Authors
Gill, A.R.
Phillips, A.L.
Tyerman, S.D.
Lawson, T.
Cavagnaro, T.R.
Burton, R.A.
Loveys, B.R.
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Journal article
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Environmental and Experimental Botany, 2025; 232:106119-1-106119-11
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Alison R. Gill, Aaron L. Phillips, Stephen D. Tyerman, Tracy Lawson, Timothy R. Cavagnaro, Rachel A. Burton, Beth R. Loveys
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Abstract
As rainfall becomes increasingly erratic due to climate change, reliable water availability for crops will decrease, leading to reductions in crop productivity. Crops that can moderate water loss during periods of water deficit but rapidly upregulate physiological and photosynthetic processes when water is available will be valuable. In a controlled environment study, we used gas exchange and chlorophyll fluorescence methods to investigate how industrial hemp (Cannabis sativa L.) responds to differing watering frequencies (well-watered every two, four, or six days). Here, we report that hemp has a strong conserved relationship between stomatal conductance (gs) and assimilation (An), limiting water loss at the expense of biomass production. Generally, hemp exhibits low gs relative to high An, meaning that while a decrease in gs limits An, it shows favourable high intrinsic water use efficiency (Wi). Hemp stomata respond quickly to water re-supply, recovering rapidly from periods of water deficit via stomatal behavioural mechanisms and rapidly upregulating An. These stomatal behaviour traits mean hemp may be a suitable choice for water-efficient cropping in climates with sporadic water availability. Rapid stomatal responses in hemp could also be used to understand the interactions between An and Wi, and to help meet plant productivity targets without significant water losses.
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© 2025 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).